CN113128902A - Emergency event immediate report disposal system and disposal method - Google Patents

Abstract

An emergency report disposal system comprises a data source, a report data processing system connected with the data source and a report management system connected with the report data processing system; the newspaper-instant data processing system processes the data collected by the data source and transmits the data to the newspaper-instant management system: the instant report management system comprises a hotspot generating terminal, a distribution management terminal, a checking distribution terminal and a checking terminal which can communicate with each other; the authority of the hotspot generating terminal comprises: receiving hotspot information transmitted by a data source or a manual alarm and creating a hotspot event; the authority of the distribution management terminal comprises primary check and hotspot check distribution; and the authority of the terminal is checked and checked result is fed back. The invention integrates the monitoring capability of each stage of platform, breaks through the problems of difficult data sharing, difficult service collaboration and the like between different systems existing between the established platforms, adopts a standard interface to carry out unified data scheduling and processing, and adopts an extensible technology to effectively solve the problems of difficult data sharing, difficult collaboration and the like between different systems.

Description

Emergency event immediate report disposal system and disposal method

Technical Field

The invention belongs to the field of information communication, relates to emergency event management and control, and particularly relates to an emergency event immediate report disposal system and a disposal method.

Background

The emergency management mechanism is an emergency management system mainly based on leadership, comprehensive coordination, classified management, hierarchical charge and attribution established aiming at emergencies which need to be processed quickly, is an emergency system and a working mechanism which integrate prevention and emergency preparation, monitoring and early warning, emergency treatment and rescue, and comprises an information disclosure mechanism, an emergency decision mechanism, a processing coordination mechanism, a benevolence processing mechanism and the like.

At present, emergency events such as fire disasters, geological disasters and other natural disasters are short in check processing, record feedback, information pushing and the like, and early disaster finding, early reporting, early check and early disposal are difficult to achieve.

The existing natural disaster emergency monitoring such as fire disaster mainly adopts the measures of ground patrol, telescope monitoring, satellite remote sensing, aviation patrol, unmanned aerial vehicle patrol and the like, but due to various restrictions of site environment and informatization conditions, the method mainly adopts a telephone or short message mode to finish reporting layer by layer, longitudinally covers five-level architectures of province, city, county and village, and passes 4 stages from the discovery of fire to the receiving of information at province level, and has poor timeliness; meanwhile, due to the lack of effective supervision means and poor retrospective traceability, related personnel are easy to cause the situations of monitoring omission and retrospective deniability. The system is also difficult to realize the timely report and push of the emergency event, all levels of unified monitoring and information reporting software are urgently needed, the existing reporting mechanism is broken through, and the superior management department can timely find and command the field verification and disposal of the scheduling personnel after the emergency event is found.

Disclosure of Invention

In order to overcome the technical defects in the prior art, the invention discloses an emergency event immediate reporting and handling system.

The invention relates to an emergency event instant report disposal system, which comprises a data source, an instant report data processing system connected with the data source and an instant report management system connected with the instant report data processing system;

the newspaper-instant data processing system processes the data collected by the data source and transmits the data to the newspaper-instant management system:

the instant report management system comprises a hotspot generating terminal, a distribution management terminal, a checking distribution terminal and a checking terminal which can communicate with each other;

the authority of the hotspot generating terminal comprises: receiving hotspot information transmitted by a data source or a manual alarm and creating a hotspot event; the authority of the distribution management terminal comprises primary check and hotspot check distribution; and the authority of the terminal is checked and checked result is fed back.

Preferably, each terminal of the instant messaging management system comprises two implementation forms, namely a WEB terminal and a mobile APP terminal.

Preferably, the data source comprises real-time image data sent back by a satellite, an aircraft and a camera, and alarm telephone and alarm information of the mobile terminal.

Preferably, the prompt report data processing system comprises a data fusion module and a data processing module, the data fusion module normalizes data of each data source, and the normalized data is used by the data processing module to identify natural disasters respectively through different setting algorithms.

Preferably, the normalization specifically includes: the data fusion module classifies the satellite images, the manned aircraft and the remote pictures shot by the unmanned aerial vehicle at high altitude; and classifying the short-distance video information shot by the camera and the mobile terminal held by the person.

The invention also discloses an emergency event prompt report disposal method, which comprises the following steps:

s1, a data source collects data and inputs the data into an instant report data processing system, wherein the data comprises image video data and manual report information;

s2, the report data processing system normalizes the image video data, identifies natural disasters in the image video data through different setting algorithms respectively, judges the natural disaster occurrence points and inputs the natural disaster occurrence points as hot points into a report management system;

s3, the hotspot generating terminal receives hotspot input information and manual reporting information sent by the instant reporting data processing system and creates a hotspot event;

s4, the distribution management terminal performs primary check and hot spot check distribution on the hot spot events; the hot spot check is distributed to mobilize the check terminal to check;

and S5, the checking terminal feeds back a checking result after going to the hot event occurrence place for checking.

Preferably, the normalization specifically includes: the data fusion module classifies the satellite images, the manned aircraft and the remote pictures shot by the unmanned aerial vehicle at high altitude; and classifying the short-distance video information shot by the camera and the mobile terminal held by the person.

Preferably, the distribution management terminal is divided into multiple stages according to the administrative management relationship, and the primary check and the hotspot check allocation are assigned to one or more stages; the low-level distribution management terminal performs specific verification and verification distribution work, and the high-level distribution management terminal performs supervision management and reporting on the synchronously distributed hot events.

Preferably, in the step S3, the hotspot input in the step S2 is processed in a message queue accepting manner; the receiving mode of the message queue is specifically as follows:

s11, setting a message queue, wherein the message queue can store a plurality of hot spots;

s12, reading positioning information corresponding to the hot spots, merging the hot spots with the positioning information distance smaller than a preset value, wherein the merged hot spots comprise the positioning information of all the hot spots before merging, and 1 is added to the merging frequency of the hot spots in each merging;

the positioning information distance is the minimum value of the distances between all positioning information in the hot spot and the positioning information of the hot spot to be merged;

s13, dynamically adjusting the sequence and storing hot spots in the message queue;

the sequence is adjusted in such a way that the sequence is adjusted from high to low according to the numerical values of the merging times;

after merging occurs in the message queue, sending the message queue which is sent out first and has a merging time value higher than a preset threshold value to a system for processing; supplementing subsequent hot spots to enter a message queue;

s14, repeating the steps S12 to S13 until the message queue is full and no merging hotspot exists;

and S15, sending the complete message queue to a system for processing.

Preferably, the method further includes performing deviation correction on the geographic position information in steps S1 to S4, and the specific method of deviation correction is as follows:

s21, setting time periods, taking a plurality of GPS coordinate points of the geographical position information of the same user in each time period as a set, classifying the set of the user by using a clustering algorithm, and determining one or more sub-clustering sets;

s22, determining the central coordinate points of all coordinate points in one sub-cluster set with the most coordinate points as the target GPS coordinate points of the user in the time period;

and S23, connecting the central coordinate points in each time period into a track according to the time sequence, and correcting the geographical position information by taking the track as a reference.

Compared with the prior art, the emergency event immediate reporting and handling system has the following advantages that:

the invention fully integrates the monitoring capability of each stage of platform, breaks through the problems of difficult data sharing, difficult service collaboration and the like between different systems existing between the established platforms, adopts standard interfaces to carry out unified data scheduling and processing, can effectively solve the problems of difficult data sharing, difficult service collaboration and the like between different systems by using an extensible technology, and promotes the overall planning and fusion of the integrated monitoring system.

The invention is convenient for all levels of governments to realize unified emergency incident reporting and communication commanding and dispatching, strengthens the organization, coordination, guidance and supervision work among all the departments, realizes the longitudinal and transverse network intercommunication, data sharing and service cooperation of hierarchical classification management, and ensures the effective communication among all levels of management departments.

The technical means is adopted to strengthen personnel management, shorten the problem handling time, improve the fault handling efficiency, better enable the patrol, management and report work of forest protectors and patrolmen, reduce the working intensity and improve the working efficiency.

And by adopting the mobile internet technology, anyone holding the mobile terminal can directly report the emergency event by clicking through a telephone and an APP, so that the information source is greatly expanded, the people can conveniently start to participate in the discovery and the report of the emergency event, the information is collected and reported in a convenient and rapid manner, the disaster disposal participation consciousness of the people is further enhanced, and the mass force is realized.

Drawings

FIG. 1 is a diagram illustrating an embodiment of a method for handling an emergency report according to the present invention;

FIG. 2 is a schematic diagram of an embodiment of an emergency report handling system according to the present invention;

fig. 3 is a diagram illustrating an embodiment of a message queue according to the present invention.

Detailed Description

The following provides a more detailed description of the present invention.

The invention relates to an emergency event instant report disposal system, which comprises a data source, an instant report data processing system and an instant report management system;

the data source comprises real-time image data sent back by a satellite, an aircraft, a camera and the like, or image video data shot by a mobile terminal held by a person.

The data collected by the data source is input into the data processing system and processed by the data fusion module in the data processing system, the data fusion module normalizes the data of each data source, satellite images, long-distance pictures shot at high altitude such as manned aircrafts and unmanned planes can be classified, and short-distance video information shot by the camera and the mobile terminal held by people is classified.

The data processing module identifies natural disasters in the images through different setting algorithms, for example, a fire outburst point is searched through temperature analysis, or debris flow or landslide is judged according to the change of the natural form in the images.

Obtaining natural disaster occurrence points judged by a computer according to an algorithm, and inputting the natural disaster occurrence points serving as hot points into an instant report management system;

meanwhile, people or forest keepers and the like can find natural disaster events by naked eyes, give an alarm and inform the places through telephones, chat software and the like, and can also be used as hot spots to be input into an instant report management system.

The instant report management system comprises a hotspot generating terminal, a distribution management terminal and a checking terminal which are connected with a data source.

Each hotspot is transmitted to each terminal of the instant messaging system, and the terminal can be a mobile APP terminal applied to the smart phone, a webpage WEB terminal based on a PC (personal computer) or the combination of the two.

The specific hardware form and software mode of the hotspot generating terminal, the distribution management terminal and the verification terminal may be the same, but the authority function of each terminal is different and is determined by the authority of the login account.

The hotspot generating terminal is usually attended by an attendant, receives hotspot information transmitted by a data source or a manual alarm, and then creates a hotspot event, wherein the hotspot event usually comprises information such as hotspot generating time, hotspot position and hotspot generating source.

The hot event is transmitted to the distribution management terminal, the distribution management terminal conducts preliminary verification, the preliminary verification mainly passes through position verification, for example, some hot spots are actually caused by normal production and life activities and can be eliminated, after the preliminary verification, the distribution management terminal conducts hot spot verification distribution, the verification terminal located nearby is found through the hot spot position, a worker holding the verification terminal goes to the verification, and the verification result is fed back to the hot spot generation terminal and the distribution management terminal at the same time.

The distribution management terminal can be divided into multiple stages according to the administrative relationship, and the primary check and the hotspot check allocation are given to one or more stages. The county level distribution management terminal can perform specific verification and verification distribution work, and the higher level distribution management terminal performs supervision management and report on the synchronously distributed hot events.

Based on the emergency event report handling system, the invention discloses an emergency event report handling method, which comprises the following steps:

s1, a data source collects data and inputs the data into an instant report data processing system, wherein the data comprises image video data and manual report information;

s2, the report data processing system normalizes the image video data, identifies natural disasters in the image video data through different setting algorithms respectively, judges the natural disaster occurrence points and inputs the natural disaster occurrence points as hot points into a report management system;

s3, the hotspot generating terminal receives hotspot input information and manual reporting information sent by the instant reporting data processing system and creates a hotspot event;

s4, the distribution management terminal performs primary check and hot spot check distribution on the hot spot events; the hot spot check is distributed to mobilize the check terminal to check;

and S5, the checking terminal feeds back a checking result after going to the hot event occurrence place for checking.

Wherein the normalization may specifically be: the data fusion module classifies the satellite images, the manned aircraft and the remote pictures shot by the unmanned aerial vehicle at high altitude; and classifying the short-distance video information shot by the camera and the mobile terminal held by the person.

The distribution management terminal can be divided into multiple stages according to the administrative management relationship, and the primary check and the hotspot check are assigned to one or more stages; the low-level distribution management terminal performs specific verification and verification distribution work, and the high-level distribution management terminal performs supervision management and reporting on the synchronously distributed hot events.

The method aims at a large number of constantly submitting hot spot information such as patrol clients or satellites at irregular time, particularly when fire occurs, a plurality of terminals may occur, but the arrival time is different, and the system is processed sequentially or simultaneously according to the traditional time sequence, so that the system is easy to cause system breakdown caused by lag processing and parallel processing of real fire.

The back end of the system can adopt the message queue to receive the uploading of the data, the peak eliminating effect can be effectively achieved aiming at the problem of centralized patrol in a certain time period, the continuous consumption capability of a background is ensured, and real events are quickly screened out.

The message queue is realized by the following steps:

s11, setting a message queue, wherein the message queue can store a plurality of hot spots;

the number of hot spots of the message queue is set according to the system processing capacity, and the upper limit of the system processing capacity is reached as far as possible, so that more hot spots are accommodated, and multiple repeated reports which possibly occur are merged.

S12, reading positioning information corresponding to the hot spots, merging the hot spots with the positioning information distance smaller than a preset value, wherein the merged hot spots comprise the positioning information of all the hot spots before merging, and 1 is added to the merging frequency of the hot spots in each merging;

the positioning information distance is the minimum value of the distances between all positioning information in the hot spot and the positioning information of the hot spot to be merged;

the method aims at the events which can be reported by a plurality of data sources at the same time in the same place or the same area, the events are obviously higher in authenticity, and the processing speed and the processing priority can be improved conveniently after the events are combined.

For example, 3 data sources all report the same regional fire, but the reporting times are obviously different, although the satellite identification at the first position is earliest, the shooting is not clear, the background does not easily draw a deterministic conclusion, the second position is a forest guard report, although the report is clear, the time is later, the message queue combines the data according to the position, the processing sequence is improved, although the positioning information reported at the third position is far away from the first position, the positioning information reported at the third position is close to the first position and meets the preset value of the positioning information distance, the combined data can be continuously combined with the combined first position and the combined second position, the combining times are improved to be 3, and the priority is further improved.

The preset value is comprehensively considered according to the positioning precision and the detection range and is generally set to be within the range of 10-100 meters.

S13, dynamically adjusting the sequence and storing hot spots in the message queue;

the sequence is adjusted in such a way that the sequence is adjusted from high to low according to the numerical values of the merging times;

after merging occurs in the message queue, sending the message queue which is sent out first and has a merging time value higher than a preset threshold value to a system for processing; supplementing subsequent hot spots to enter a message queue;

the higher the number of times of combination is, the larger the number of reports for a certain area is, the higher the authenticity is, the preset threshold value may be set to 2 or 3, that is, as long as 2 or 3 data sources report a certain place, the possibility is considered to be extremely high, and the processing is immediately performed without waiting until the message queue is full.

S14, repeating the steps S12 to S13 until the message queue is full and no merging hotspot exists;

s15, sending the complete message queue to a system for processing; due to the proximity of the coordinates of the individual hotspot events included in the merged hotspot, a single hotspot event schedule may be created in steps S3 through S4 for subsequent screening.

By adopting the message queue processing mode, peak staggering processing can be carried out on the messages in the peak period, system paralysis is avoided, screening and sequencing are carried out according to the positioning information, the real events are preferentially processed with the maximum probability, the response identification speed is improved, and the system workload is reduced.

The steps S1-S4 all relate to positioning of geographic positions, and when positioning signals are received, many users often have poor positioning signals at positions, which causes point positions to drift in different directions, and finally, the effect is not ideal when the trajectory is presented. The system needs to correct the position of the module when receiving data at the rear end of the module; the concrete mode is as follows:

s21, setting time periods, taking a plurality of GPS coordinate points of the geographical position information of the same user in each time period as a set, classifying the set of the user by using a clustering algorithm, and determining one or more sub-clustering sets; for example, the time period may be 1-10 seconds;

s22, determining the central coordinate points of all coordinate points in one sub-cluster set with the most coordinate points as the target GPS coordinate points of the user in the time period;

and S23, connecting the central coordinate points in each time period into a track according to the time sequence, and correcting the geographical position information by taking the track as a reference. Namely, the geographical position information obviously deviating from the track is deleted or moved to the track, so that the accuracy of data and positioning is improved.

Detailed description of the preferred embodiment 1

The satellite and the unmanned aerial vehicle patrol and shoot images according to a routine cruising route, videos shot by all fixed point cameras in forest area grassland in real time and other data are transmitted back to the prompt report data processing system, the prompt report data processing system processes the data in a classified mode, fire point identification is carried out according to a set algorithm, for example, image processing is carried out on satellite data according to a thermal anomaly point inversion model based on the wind cloud VIIR data, and a hot point A, B, C is obtained.

As shown in fig. 2, after receiving the three pieces of hotspot information, the forest and grass office attendant who is the attendant of the hotspot generating terminal creates a hotspot event, inputs a hotspot event data packet including a hotspot generating time, a hotspot location, and a hotspot generating source, and transmits the hotspot event data packet to the distribution management terminal.

After receiving the hotspot information, a county attendant of the distribution management terminal conducts preliminary check, finds that the hotspot event A is caused by normal exhaust tail gas combustion treatment of a certain chemical plant in the county through the geographical position and past history, and eliminates the hotspot event A.

For the hotspot events B and C, a county operator searches for an online work check terminal nearby the hotspot event according to the positions of the two hotspots, finds that a forest protection operator is located nearby the position of the hotspot event B, arranges the forest protection operator to go to check, finds that no forest protection operator is located nearby the position of the hotspot event C, and arranges the unmanned aerial vehicle to go to recheck.

After the forest guard goes to the hotspot event B and is verified on the spot, the forest guard finds that the result is caused only by the barbecue of tourists, the forest guard dissuades and extinguishes the fire source on the spot and reports to a county attendant of the distribution management terminal, the county attendant confirms that the fire is not the fire, and informs the forest and grass bureau attendant of the hotspot generation terminal, and the hotspot event B is terminated.

The unmanned aerial vehicle goes to recheck the hotspot event C, the unmanned aerial vehicle operator judges the fire situation and reports the fire situation to a county attendant of the distribution management terminal through the on-site return image, the county attendant immediately reports a city attendant and a provincial attendant of the upper-level distribution management terminal, and the forest and grass bureau attendant and the fire extinguishing disposal staff of the hotspot generation terminal are synchronously notified.

The provincial staff can decide whether to report a higher supervision leader such as a provincial management leader or not according to the severity and the controllable degree of the fire.

Specific example 2

After tourists in a forest area find a fire, the forest and grass office attendant serving as a hot spot generation terminal attendant receives the telephone alarm and confirms time and place through telephone alarm, creates a hot spot event, inputs the hot spot generation time, the hot spot position and a hot spot generation source into a data packet of the hot spot event and sends the data packet to a distribution management terminal.

After receiving the hotspot information, a county attendant of the distribution management terminal performs preliminary check, finds a check terminal which is located nearby and works on line according to the position of the hotspot, finds that a forest protection attendant is located nearby the position of the hotspot event, and arranges the forest protection attendant to go to check.

After the forest guard goes to the hot spot event and is verified on the spot, the forest guard is judged to be a fire and is reported to a county attendant of the distribution management terminal, the county attendant immediately reports a city attendant and a province attendant of the previous-level distribution management terminal, and the forest and grass bureau attendant and the fire extinguishing disposal staff of the hot spot generation terminal are synchronously notified.

Specific example 3

The forest protection personnel or the common people who hold the portable terminal find that a suspected fire source exists nearby by naked eyes, then take pictures through the portable terminal, upload the pictures and send geographical position information together, and if the forest protection personnel find the suspected fire source, the uploaded forest protection personnel rapidly go to check the suspected fire source. If the fire danger is found by the common people, the processing system calls fire danger prescreening data to verify whether the fire danger is consistent with the position of a hot spot found by a satellite or not, if the position is consistent with the position, the processing system directly judges the fire danger is the highest priority level, nearby patrol personnel or aircrafts are preferentially arranged to check, if the position is not consistent with the position, low-heat smoke such as water vapor, automobile exhaust and the like can be generated, and the processing system synthesizes the fire danger level and the lightning distribution diagram of the fire danger prescreening data to comprehensively study and judge whether the fire danger goes to verify or where the personnel go to verify.

If the reported fire source position is not coincident with the satellite hotspot position, the processing system lists the reported suspected fire source information as hotspots, performs priority ranking with hotspots obtained by satellite monitoring according to the mode of the specific embodiment 1, arranges the nearest personnel to view preferentially for hotspots with high priority, and arranges to view, verify or wait for further information updating for hotspots in medium risk and low risk areas.

The foregoing is a description of preferred embodiments of the present invention, and the preferred embodiments in the preferred embodiments may be combined and combined in any combination, if not obviously contradictory or prerequisite to a certain preferred embodiment, and the specific parameters in the examples and the embodiments are only for the purpose of clearly illustrating the inventor's invention verification process and are not intended to limit the patent protection scope of the present invention, which is defined by the claims and the equivalent structural changes made by the content of the description of the present invention are also included in the protection scope of the present invention.

Claims (10)

1. An emergency report disposal system is characterized by comprising a data source, a report data processing system connected with the data source and a report management system connected with the report data processing system;

the newspaper-instant data processing system processes the data collected by the data source and transmits the data to the newspaper-instant management system:

the instant report management system comprises a hotspot generating terminal, a distribution management terminal, a checking distribution terminal and a checking terminal which can communicate with each other;

the authority of the hotspot generating terminal comprises: receiving hotspot information transmitted by a data source or a manual alarm and creating a hotspot event; the authority of the distribution management terminal comprises primary check and hotspot check distribution; and the authority of the terminal is checked and checked result is fed back.

2. The system of claim 1, wherein each terminal of the instant messaging management system includes two implementations of a WEB terminal and a mobile APP terminal.

3. An emergency report handling system according to claim 1, characterized in that the data sources include real-time image data sent back by satellite, aircraft and camera, and alarm telephone and alarm information of mobile terminals.

4. The emergency report handling system according to claim 1, wherein the report handling system comprises a data fusion module and a data processing module, the data fusion module normalizes data of each data source, and the normalized data is used by the data processing module to identify natural disasters therein through different setting algorithms respectively.

5. The emergency on-demand treatment system of claim 4, wherein the normalization is specifically: the data fusion module classifies the satellite images, the manned aircraft and the remote pictures shot by the unmanned aerial vehicle at high altitude; and classifying the short-distance video information shot by the camera and the mobile terminal held by the person.

6. The emergency event instant report handling method is characterized by comprising the following steps:

s1, a data source collects data and inputs the data into an instant report data processing system, wherein the data comprises image video data and manual report information;

s2, the report data processing system normalizes the image video data, identifies natural disasters in the image video data through different setting algorithms respectively, judges the natural disaster occurrence points and inputs the natural disaster occurrence points as hot points into a report management system;

s3, the hotspot generating terminal receives hotspot input information and manual reporting information sent by the instant reporting data processing system and creates a hotspot event;

s4, the distribution management terminal performs primary check and hot spot check distribution on the hot spot events; the hot spot check is distributed to mobilize the check terminal to check;

and S5, the checking terminal feeds back a checking result after going to the hot event occurrence place for checking.

7. The emergency report handling method according to claim 6, wherein the normalization specifically comprises: the data fusion module classifies the satellite images, the manned aircraft and the remote pictures shot by the unmanned aerial vehicle at high altitude; and classifying the short-distance video information shot by the camera and the mobile terminal held by the person.

8. The method for handling an emergency event or report according to claim 6, wherein the distribution management terminal is divided into a plurality of stages according to an administrative relationship, and assigns the preliminary audit and the hot spot audit to one or more stages; the low-level distribution management terminal performs specific verification and verification distribution work, and the high-level distribution management terminal performs supervision management and reporting on the synchronously distributed hot events.

9. The method for handling emergency events, namely reports, according to claim 6, wherein in step S3, the hot spot inputted in step S2 is processed in a message queue accepting manner; the receiving mode of the message queue is specifically as follows:

s11, setting a message queue, wherein the message queue can store a plurality of hot spots;

s12, reading positioning information corresponding to the hot spots, merging the hot spots with the positioning information distance smaller than a preset value, wherein the merged hot spots comprise the positioning information of all the hot spots before merging, and 1 is added to the merging frequency of the hot spots in each merging;

the positioning information distance is the minimum value of the distances between all positioning information in the hot spot and the positioning information of the hot spot to be merged;

s13, dynamically adjusting the sequence and storing hot spots in the message queue;

the sequence is adjusted in such a way that the sequence is adjusted from high to low according to the numerical values of the merging times;

after merging occurs in the message queue, sending the message queue which is sent out first and has a merging time value higher than a preset threshold value to a system for processing; supplementing subsequent hot spots to enter a message queue;

s14, repeating the steps S12 to S13 until the message queue is full and no merging hotspot exists;

and S15, sending the complete message queue to a system for processing.

10. The method for handling an emergency report according to claim 6, further comprising the step of rectifying the geographical location information of the steps S1 to S4 by:

s21, setting time periods, taking a plurality of GPS coordinate points of the geographical position information of the same user in each time period as a set, classifying the set of the user by using a clustering algorithm, and determining one or more sub-clustering sets;

s22, determining the central coordinate points of all coordinate points in one sub-cluster set with the most coordinate points as the target GPS coordinate points of the user in the time period;

and S23, connecting the central coordinate points in each time period into a track according to the time sequence, and correcting the geographical position information by taking the track as a reference.

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